CN115709509A - Light wallboard machine-shaping device - Google Patents

Light wallboard machine-shaping device Download PDF

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Publication number
CN115709509A
CN115709509A CN202211413440.0A CN202211413440A CN115709509A CN 115709509 A CN115709509 A CN 115709509A CN 202211413440 A CN202211413440 A CN 202211413440A CN 115709509 A CN115709509 A CN 115709509A
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China
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frame
mold
roll
assembly
fixing
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CN202211413440.0A
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CN115709509B (en
Inventor
李鹏
王坤
李鸿
马辛强
杨魁杉
王为彬
仇胜刚
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Shandong Wanwei Intelligent Equipment Co ltd
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Shandong Wanwei Intelligent Equipment Co ltd
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Priority to CN202211413440.0A priority Critical patent/CN115709509B/en
Publication of CN115709509A publication Critical patent/CN115709509A/en
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Abstract

The application relates to the technical field of light wallboard processing, in particular to a light wallboard processing and forming device which comprises a rack, a blending mechanism, a mold and a material homogenizing mechanism, wherein the blending mechanism is arranged on the rack and used for mixing and stirring raw materials; the material homogenizing mechanism comprises a roll-over stand, a material homogenizing stand and a jacking assembly, one end of the roll-over stand rotates on the rack, the mold is arranged on the roll-over stand, and the mold is positioned below the discharge end of the blending mechanism; the mould is provided with a plurality of forming cavities; the jacking assembly is arranged on the rack, the jacking assembly is connected with one end of the roll-over stand and drives the roll-over stand to rotate, the material homogenizing frame is arranged at one end, away from the jacking assembly, of the mold, and when the jacking assembly drives the mold to rotate to a high point, raw materials are gathered in the material homogenizing frame and form a horizontal liquid level. This application has the effect that improves branch material effect.

Description

Light wallboard machine-shaping device
Technical Field
The utility model belongs to the technical field of the technique of light weight wallboard processing and specifically relates to a light weight wallboard machine-shaping device is related to.
Background
At present, the GLC siliceous light plate is a novel green energy-saving building material product. The crystal form transformation enhancing technology is adopted, and the molecular composition structure of the cement-based material is reprogrammed through a reasonable production process, so that the strength of the cement can be enhanced to 113%. The GLC wallboard is formed by a wet forming process, cement, fly ash and gypsum are used as main raw materials, short-cut fibers, light aggregate, a waterproof agent, a foaming agent and the like are added, a reinforcing steel bar net rack is added for reinforcement when necessary, and the light batten is formed by casting. The light plate is mainly used for non-bearing walls with various structures. The GLC light inner wall board used by the non-bearing wall body adopts a combined form, and the side surface of the board is provided with a corresponding tenon-and-mortise structure, a positioning hole and a positioning column structure. The vertical mold production process of the GLC light wallboard comprises the steps of batching, blending, injection molding, foaming, natural curing, demolding, offline and the like, wherein blending equipment is required in the blending process.
In the prior art, the blending device comprises a rack, a stirring tank fixedly connected to the rack, a blending mechanism arranged on the rack and used for blending raw materials in the stirring tank, and a sealing mechanism arranged at the discharge end of the stirring tank, wherein a discharge port is formed in the bottom wall of the stirring tank, the sealing mechanism comprises a sealing plate rotatably connected to the discharge port of the stirring tank and a rotating assembly used for driving the sealing plate to rotate, and the sealing plate rotates and seals the discharge port; the mould that a plurality of equidistant settings were placed to the below of agitator tank, at first in adding the agitator tank with the raw materials that the batching finishes, then harmonize the raw materials with mediation mechanism, and after the batching of light wallboard was harmonized and is finished, rotating assembly drove the shut and rotates, and the raw materials that have harmonized fall in the mould, wait for the foaming shaping.
In the process of implementing the present application, the inventor finds that in the technology, at least the following problems exist, in the process that raw materials enter the die along the discharge port, the quantities of the raw materials in a plurality of dies are different, and the lengths of the foaming molded die plates are different.
Disclosure of Invention
In order to make the branch material even, improve and divide the material effect, this application provides a light wallboard machine-shaping device.
The application provides a pair of light wallboard machine-shaping device adopts following technical scheme:
a light wallboard processing and forming device comprises a rack, a blending mechanism, a mold and a material homogenizing mechanism, wherein the blending mechanism is arranged on the rack and used for mixing and stirring raw materials; the material homogenizing mechanism comprises a roll-over stand, a material homogenizing stand and a jacking assembly, one end of the roll-over stand rotates on the rack, the mold is arranged on the roll-over stand, and the mold is positioned below the discharge end of the blending mechanism; the mould is provided with a plurality of forming cavities; the jacking assembly is arranged on the rack, the jacking assembly is connected with one end of the turnover frame and drives the turnover frame to rotate, the homogenizing frame is arranged at one end, away from the jacking assembly, of the mold, and when the jacking assembly drives the mold to rotate to a high point, raw materials are gathered in the homogenizing frame and form a horizontal liquid level.
By adopting the technical scheme, when the light wallboard is processed, firstly, various raw materials are added into the blending mechanism, the blending mechanism is used for stirring and mixing the raw materials, the raw materials enter the die during stirring, then the jacking assembly is used for driving the turnover frame to rotate, the turnover frame is used for driving the raw materials to flow to the material homogenizing frame and form a horizontal liquid level, then the jacking assembly is used for driving the turnover frame to reversely rotate, the raw materials forming the horizontal liquid level are uniformly distributed into each forming cavity, and foaming forming is waited; through the feed mechanism who sets up for the raw materials that the mediation was accomplished can be even get into a plurality of shaping intracavity, improved the branch material effect, make the difference between a plurality of fashioned wallboards less, reduce the probability of secondary cutting, improve the quality of wallboard, reduce cost.
Optionally, a lifting mechanism is arranged on the roll-over stand, the lifting mechanism includes a support frame, a connecting frame and a lifting assembly, and the support frame is arranged on the roll-over stand; the connecting frame is arranged on the supporting frame, the material homogenizing frame is arranged on the connecting frame, the lifting assembly is arranged on the supporting frame, and the lifting assembly is connected with the connecting frame and drives the connecting frame to be far away from the die.
By adopting the technical scheme, after the mould is placed below the blending mechanism, the lifting assembly is used for driving the mounting frame to approach the mould, the material homogenizing frame on the mounting frame is abutted against the mould, then the raw material in the blending mechanism is injected into the mould, the turning frame is driven to rotate, so that the raw material is gathered at the material homogenizing frame, and then the turning frame is rotated reversely, so that the raw material is uniformly distributed into a plurality of forming cavities; through the lifting mechanism who sets up for even work or material rest can be separated with the mould, the change of the mould of being convenient for and the dismantlement of shaping wallboard, and then make work efficiency obtain improving.
Optionally, the lifting assembly comprises a speed reduction motor, a connecting seat, a supporting rod, a worm wheel and a worm, the connecting seat is arranged on the supporting frame, and the supporting rod is arranged on the connecting frame and connected to the connecting seat in a sliding manner; the worm wheel is rotatably arranged on the connecting seat and in threaded connection with the supporting rod, the speed reducing motor is arranged on the supporting frame, the worm is connected with an output shaft of the speed reducing motor, and the worm wheel is meshed with the worm.
By adopting the technical scheme, after the mould is placed below the blending mechanism, the speed reducing motor is started, the speed reducing motor drives the worm to rotate, the worm drives the worm wheel to rotate, the worm wheel drives the supporting rod to lift, the supporting rod slides along the connecting seat, the supporting rod drives the material homogenizing frame on the connecting frame to descend, and the material homogenizing frame falls on the mould; the lifting component is simple in structure and convenient to operate.
Optionally, the mould includes fixed frame, horizontal mould, die block and side form, fixed frame sets up on the roll-over stand, fixed frame is provided with a plurality ofly horizontal mould, adjacent two all be provided with between the horizontal mould the die block, the die block with the fixed frame butt, the both ends of die block all are provided with the side form, the both sides of side form respectively with adjacent two horizontal mould butt.
Through adopting above-mentioned technical scheme, horizontal mould, die block and side form a plurality of shaping chambeies that are used for the wallboard shaping, the shaping of wallboard of being convenient for.
Optionally, the transverse mold is connected to the fixed frame in a sliding manner, the fixed frame is provided with a mold splitting mechanism, the mold splitting mechanism comprises fixed lugs, a connecting plate, a pin shaft and a power assembly, and the transverse mold is provided with the fixed lugs; the pin shafts penetrate through the fixing lugs, a plurality of connecting plates are arranged, one end of each connecting plate is rotatably arranged on one fixing lug through the pin shaft, and the other end of each connecting plate is provided with a waist-shaped hole which is connected with the pin shaft on the adjacent fixing lug in a sliding manner; the power assembly is arranged on the fixed frame and connected with one transverse die.
Through adopting above-mentioned technical scheme, after wallboard foaming shaping, drive one of them horizontal mould with power component and slide, horizontal mould drives the connecting plate and slides, and the connecting plate slides to the lateral wall and the round pin axle butt in waist type hole, and the connecting plate drives adjacent horizontal mould and wallboard separation, then takes out the wallboard, and through the branch membrane mechanism that sets up, the separation of the shaping wallboard of being convenient for work efficiency obtains improving.
Optionally, a sliding mechanism is arranged on the rack and comprises idler wheels, first slide rails and a driving assembly, two first slide rails are arranged on the roll-over stand, two idler wheels are arranged on each first slide rail in a rolling mode, and the four idler wheels are arranged on the fixed frame in a rotating mode.
Through adopting above-mentioned technical scheme, pour the mould with the raw materials in the back, drive the gyro wheel with drive assembly and slide along first slide rail, the gyro wheel drives fixed frame and moves to the position of keeping away from mediation mechanism, carries out the foaming shaping, at this moment, drives new mould with drive assembly and moves to the below of mediation mechanism, through the slide mechanism who sets up, can guarantee at wallboard foaming shaping's in-process, can continue to carry out the harmonious shaping of pouring of wallboard for work efficiency can keep.
Optionally, a positioning mechanism is arranged on the roll-over stand, the positioning mechanism includes a first positioning block, the first positioning block is arranged at the front end of the fixed frame in the advancing direction, and the first positioning block is used for fixing the mold below the blending mechanism.
Through adopting above-mentioned technical scheme, drive assembly drives the gyro wheel and moves to the below of mediation mechanism along first slide rail, fixed frame and first locating piece butt for the mould is located mediation mechanism under, realizes the accurate location of mould, reduces the raw materials of accomplishing of mediation and falls outside the mould, reduces the waste of raw materials.
Optionally, the positioning mechanism further comprises a second positioning block, a fixing seat, a rotating rod and a rotating assembly, the two fixing seats are arranged on the roll-over stand, the rotating rod is rotatably connected to the fixing seats, the second positioning block is hinged to one end of the rotating rod, and the second positioning block can be abutted to the fixed frame and used for reducing lateral sliding of the fixed frame; all be provided with on the second locating piece first locating piece, drive assembly sets up on the roll-over stand, drive assembly with the dwang is kept away from the one end of second locating piece is connected, drive assembly drives the dwang rotates.
Through adopting above-mentioned technical scheme, after fixed frame moved to the below of mediation mechanism, it rotates to drive the dwang with runner assembly, the dwang drives the second locating piece and is close to towards fixed frame, first locating piece and fixed frame advancing direction's front end butt and rectify fixed frame's position, the second locating piece promotes fixed frame and slides simultaneously, make gyro wheel and first slide rail support tightly, when the roll-over stand rotates, the runner assembly drives the synchronous rotation of dwang, make the second locating piece support the fixed frame tightly all the time, reduce at the in-process of refining, fixed frame and first slide rail take place the relative slip, reduce raw materials spill shaping chamber or even work or material rest, the waste of raw materials has been reduced, make the refining effect can keep simultaneously.
To sum up, the application comprises the following beneficial technical effects:
1. through the arranged material distribution mechanism, the blended raw materials can uniformly enter a plurality of forming cavities, so that the material distribution effect is improved, the difference among a plurality of formed wallboards is small, the probability of secondary cutting is reduced, the quality of the wallboards is improved, and the cost is reduced;
2. after the wallboard is foamed and formed, the power assembly drives one of the transverse dies to slide, the transverse die drives the connecting plate to slide, the connecting plate slides to the side wall of the waist-shaped hole to be abutted against the pin shaft, the connecting plate drives the adjacent transverse die to be separated from the wallboard, then the wallboard is taken out, and the formed wallboard is conveniently separated through the arranged die separating mechanism, so that the working efficiency is improved;
3. after fixed frame moved to the below of mediation mechanism, drive the dwang with rotating assembly and rotate, the dwang drives the second locating piece and is close to towards fixed frame, first locating piece and fixed frame advancing direction's front end butt and rectify fixed frame's position, the second locating piece promotes fixed frame and slides simultaneously, make the gyro wheel support tightly with first slide rail, when the roll-over stand pivoted, rotating assembly drives the dwang synchronous revolution, make the second locating piece support the fixed frame tightly all the time, reduce at the in-process of refining, fixed frame and first slide rail take place relative slip, reduce raw materials spill shaping chamber or the refining frame, the waste of raw materials has been reduced, make the refining effect can keep simultaneously.
Drawings
FIG. 1 is a schematic overall structure diagram of a light wall panel processing and forming device in an embodiment of the present application;
FIG. 2 is a schematic structural diagram of a reconciliation mechanism in an embodiment of the present application;
FIG. 3 is a schematic view of the entire structure of a refining mechanism in an embodiment of the present application;
FIG. 4 is a schematic structural diagram of a mold in an embodiment of the present application;
FIG. 5 is a schematic structural diagram of a sliding mechanism in an embodiment of the present application;
FIG. 6 is a schematic structural diagram of a mold separating mechanism in an embodiment of the present application;
fig. 7 is a schematic overall structure diagram of a sliding mechanism in the embodiment of the present application;
FIG. 8 is a schematic view of a positioning mechanism in an embodiment of the present application;
fig. 9 is a schematic structural diagram of a lifting mechanism in an embodiment of the present application.
Reference numerals: 100. a frame; 200. a blending mechanism; 210. a stirring tank; 220. a stirring assembly; 230. a closure assembly; 231. a closing plate; 232. a mounting frame; 233. turning over the air cylinder; 234. a transmission rod; 300. a mold; 310. a fixed frame; 320. transverse molding; 330. side mould; 340. bottom die; 350. a support block; 370. a first retaining ring; 380. a second fixing ring; 390. a fixed shaft; 400. a material homogenizing mechanism; 410. a roll-over stand; 420. a material homogenizing frame; 430. a jacking assembly; 431. a second support seat; 432. a jacking cylinder; 440. a first support base; 500. a lifting mechanism; 510. a support frame; 520. a connecting frame; 530. a lifting assembly; 531. a reduction motor; 532. a connecting seat; 533. a support bar; 534. a worm gear; 535. a worm; 536. a drive shaft; 600. a mold splitting mechanism; 610. fixing the ear; 620. a connecting plate; 621. a kidney-shaped hole; 630. a pin shaft; 640. a power assembly; 700. a sliding mechanism; 710. a roller; 720. a first slide rail; 730. a drive assembly; 731. a drive motor; 732. a second gear; 733. a third gear; 740. a second slide rail; 750. a sliding seat; 800. a positioning mechanism; 810. a first positioning block; 820. a second positioning block; 830. a fixed seat; 840. rotating the rod; 850. a rotating assembly; 851. a third support seat; 852. a follow-up cylinder.
Detailed Description
The present application is described in further detail below with reference to figures 1-9.
The embodiment of the application discloses light wallboard machine-shaping device.
Referring to fig. 1, the light wallboard processing and forming apparatus includes a frame 100, a blending mechanism 200 disposed on the frame 100 for blending raw materials, a mold 300 slidably disposed on the frame 100 for foaming and forming wallboard, a sliding mechanism 700 disposed on the frame 100 for driving the mold 300 to slide, a refining mechanism 400 disposed on the frame 100 for refining the mold 300, and a positioning mechanism 800 disposed on the frame 100 for positioning the mold 300; carry out wallboard man-hour, in adding mediation mechanism 200 with multiple raw materials in proper order, carry out the mediation reaction, glide machanism 700 drives mould 300 simultaneously and moves to the below of mediation mechanism 200, and mould 300 contradicts and realizes mould 300's location with positioning mechanism 800, and in the raw materials entering mould 300 that the mediation was accomplished, refining mechanism 400 evenly made the raw materials in a plurality of shaping cavitys of mould 300 roughly the same to the raw materials, realizes evenly dividing the material, waits for the foaming shaping of raw materials in mould 300.
Referring to fig. 1 and 2, the blending mechanism 200 includes a stirring tank 210 fixedly connected to the frame 100, a stirring assembly 220 is fixedly connected to the frame 100, the stirring assembly 220 includes a stirring motor fixedly connected to the stirring tank 210, a stirring rod is fixedly connected to an output shaft of the stirring motor, and the stirring rod extends into the stirring tank 210; the agitator motor is started and drives the agitator arm to agitate the raw material in the agitator tank 210.
Referring to fig. 1 and 2, a discharge hole is formed in one side of the stirring tank 210 close to the mold 300, a sealing assembly 230 is arranged on the stirring tank 210, the sealing assembly 230 includes a sealing plate 231 rotatably connected to the stirring tank 210, the sealing plate 231 is rotatably connected to one end of the stirring tank 210 at which the discharge hole is formed, and the sealing plate 231 can seal the discharge hole; two transmission rods 234 are fixedly connected to the rotating end of the closing plate 231; fixedly connected with mounting bracket 232 on the frame 100, the last rotation of mounting bracket 232 is connected with two upset cylinders 233, and the piston rod of two upset cylinders 233 rotates with two transfer bars 234 respectively to be connected, and when upset cylinder 233 contracts, the piston rod drives transfer bar 234 and rotates, and transfer bar 234 drives closing plate 231 and rotates, and the discharge opening is opened to closing plate 231, and the raw materials that have harmonious are discharged from the discharge opening.
Referring to fig. 1 and 3, the refining mechanism 400 includes a first supporting seat 440, the first supporting seat 440 is fixedly connected to the frame 100, a turning frame 410 is rotatably connected to the first supporting seat 440, and the turning frame 410 is located right below the stirring tank 210; the rack 100 is provided with a jacking assembly 430, the jacking assembly 430 comprises two second supporting seats 431 fixedly connected to the bottom wall of the rack 100, the second supporting seats 431 are rotatably connected with jacking cylinders 432, the rotating axes of the jacking cylinders 432 are parallel to the rotating axis of the roll-over stand 410, and the piston rods of the jacking cylinders 432 are rotatably connected with one ends of the roll-over stand 410 far away from the first supporting seats 440; the turning frame 410 rotates along the first supporting seat 440 through the extension and contraction of the jacking cylinder 432.
Referring to fig. 4 and 5, the mold 300 includes a fixing frame 310, a plurality of equally spaced transverse molds 320 are disposed on the fixing frame 310, and the transverse molds 320 are slidably connected to the fixing frame 310 and slidably move along the length direction of the fixing frame 310; a plurality of supporting blocks 350 are fixedly connected between two adjacent transverse dies 320, a bottom die 340 is placed on each supporting block 350, and two sides of the bottom die 340 in the width direction are respectively abutted against the two transverse dies 320 and can relatively slide; two ends of the bottom die 340 are respectively abutted with a side die 330, the side die 330 is perpendicular to the bottom die 340, two sides of the side die 330 can be abutted with the transverse die 320, the bottom die 340 and the side die 330 have the same width, so that the transverse dies 320 on two sides can be abutted conveniently, and adjacent side dies 330, the bottom die 340 and the transverse dies 320 form a forming cavity; two first fixing rings 370 are fixedly connected to the fixing frame 310, the two first fixing rings 370 are located at one side of the fixing frame 310, and a fixing shaft 390 is coaxially and fixedly connected to each of the two first fixing rings 370; two second fixing rings 380 are fixedly connected to the side wall, far away from the bottom plate, of the side die 330 at one end, and the fixing shaft 390 penetrates through the second fixing rings 380 and slides relatively.
Referring to fig. 5 and 6, a mold splitting mechanism 600 is disposed on the fixed frame 310, the mold splitting mechanism 600 includes a plurality of fixing lugs 610, fixing lugs 610 are fixedly connected to both ends of each transverse mold 320, the fixing lugs 610 are located on one side of the transverse mold 320 close to the fixed frame 310, and the transverse mold 320 slides with the fixed frame 310 through the fixing lugs 610; a pin shaft 630 penetrates through the fixing lugs 610, the pin shaft 630 can rotate on the fixing lugs 610, a connecting plate 620 is arranged between the two fixing lugs 610, one end of the connecting plate 620 is rotatably connected with one fixing lug 610 through the pin shaft 630, a waist-shaped hole 621 is formed in the other end of the connecting plate 620, the waist-shaped hole 621 is formed in the length direction of the connecting plate 620, and the pin shafts 630 on the adjacent fixing lugs 610 slide in the waist-shaped holes 621; the fixed frame 310 is provided with a power assembly 640, the power assembly 640 is a hydraulic oil cylinder, a cylinder body of the hydraulic oil cylinder is fixedly connected to the fixed frame 310, and a piston cylinder of the hydraulic oil cylinder is connected with the transverse die 320 at the end part and drives the transverse die 320 to slide.
Referring to fig. 5 and 7, the sliding mechanism 700 includes four sliding seats 750 fixedly connected to the bottom wall of the fixed frame 310, the four sliding seats 750 are respectively located on four corners of the fixed frame 310, and one end of the sliding seat 750 away from the fixed frame 310 is rotatably connected with a roller 710; the two first sliding rails 720 are fixedly connected to the roll-over stand 410, the rollers 710 are connected to the first sliding rails 720 in a rolling manner, the axes of the first sliding rails 720 are parallel to the rotation axis of the roll-over stand 410, the second sliding rails 740 are arranged at the two ends of the first sliding rails 720, the second sliding rails 740 are fixedly connected to the stand 100, and the axes of the second sliding rails 740 are overlapped with the axes of the first sliding rails 720 at the same side; the sliding seats 750 are provided with driving components 730 for driving the roller 710 to rotate, each driving component 730 comprises a driving motor 731, the driving motors 731 are positioned on the side walls, close to each other, of the two sliding seats 750 at the same end, the output shaft of each driving motor 731 is in keyed connection with a second gear 732, and the roller 710 is coaxially connected with a third gear 733 meshed with the second gear 732; the driving motor 731 is started, the driving motor 731 drives the second gear 732 to rotate, the second gear 732 drives the third gear 733 to rotate, and the third gear 733 drives the roller 710 to rotate.
Referring to fig. 3 and 8, the positioning mechanism 800 includes two fixing seats 830 fixedly connected to the roll-over stand 410, the fixing seats 830 are located on the side wall of one end of the roll-over stand 410 away from the second supporting seat 431, the two fixing seats 830 respectively correspond to the two sliding seats 750 on the same side, a rotating rod 840 is rotatably connected to the fixing seats 830, and the rotating axis of the rotating rod 840 is parallel to the rotating axis of the roll-over stand 410; one end of the rotating rod 840 extends to the sliding seat 750 and is hinged with a second positioning block 820, the second positioning block 820 can be abutted against the sliding seat 750, one end of the two second positioning blocks 820, which is away from each other, is fixedly connected with a first positioning block 810, the two first positioning blocks 810 are respectively abutted against the side walls of the two sliding seats 750, which are away from each other, on the same side, and the first positioning block 810 is used for positioning the mold 300 below the stirring tank 210; the side wall of the roll-over stand 410 close to the first slide rail 720 is provided with a rotating assembly 850, the rotating assembly 850 comprises two third supporting seats 851, the third supporting seats 851 correspond to the two rotating rods 840 respectively, the third supporting seats 851 are connected with a follow-up cylinder 852 in a rotating manner, the rotating axis of the follow-up cylinder 852 is parallel to the rotating axis of the roll-over stand 410, and the piston rod of the follow-up cylinder 852 is hinged to one end of the rotating rod 840 far away from the second positioning block 820.
Referring to fig. 8 and 9, a lifting mechanism 500 is arranged on the roll-over stand 410, the lifting mechanism 500 includes two supporting frames 510 fixedly connected to the roll-over stand 410, the two supporting frames 510 are parallel to each other and are respectively located at two ends of the transverse mold 320, the supporting frames 510 are door-shaped arches, a lifting assembly 530 is arranged on each of the two supporting frames 510, a connecting frame 520 is arranged on the lifting assembly 530, the cross section of the connecting frame 520 is of a japanese shape, the connecting frame 520 can be abutted against and sealed with one end of the fixed mold far away from the fixed mold 310, a material homogenizing frame 420 is integrally arranged on the connecting frame 520, the material homogenizing frame 420 is in a bucket shape with an opening at the bottom, and the material homogenizing frame 420 is located at one end of the connecting frame 520 far away from the roll-over cylinder 233; when the roll-over stand 410 rotates, the raw materials are gathered in the refining stand 420 to form a horizontal liquid level, so that the raw materials in the plurality of forming cavities are uniformly distributed, and then the raw materials are uniformly distributed into the plurality of forming cavities when the roll-over stand 410 rotates reversely.
Referring to fig. 8 and 9, the lifting assembly 530 includes a connecting seat 532, the connecting seat 532 is fixedly connected to both ends of the supporting frame 510, a sliding hole is formed in the connecting seat 532, the sliding hole is formed in the vertical direction, a supporting rod 533 is slidably connected to the sliding hole, and the supporting rod 533 is fixedly connected to one end of the connecting frame 520 close to the transverse mold 320; two speed reducing motors 531 fixedly connected to the support frame 510, wherein the speed reducing motors 531 are double-shaft motors, two output shafts of the double-shaft motors are both connected with transmission shafts 536, and the ends of the two transmission shafts 536, which are away from each other, are fixedly connected with worms 535 through couplers; a worm wheel 534 engaged with the worm 535 is rotatably connected in the connecting seat 532, the worm wheel 534 is coaxial with the support rod 533, the support rod 533 is a threaded rod, and the support rod 533 is in threaded connection with the worm wheel 534. The gear motor 531 is started, the gear motor 531 drives the transmission shaft 536 to rotate, the transmission shaft 536 drives the worm 535 to rotate, the worm 535 drives the worm wheel 534 to rotate, and the worm wheel 534 drives the support rod 533 to ascend or descend, so that the connecting frame 520 ascends or descends.
The implementation principle of the light wallboard processing and forming device in the embodiment of the application is as follows: firstly, adding a plurality of raw materials into a stirring tank 210 for blending, then starting a stirring motor, driving a stirring rod to rotate by the stirring motor, and driving the raw materials to mix by the stirring rod; meanwhile, the driving motor 731 is started to drive the second gear 732 to rotate, the second gear 732 drives the third gear 733 to rotate, the third gear 733 drives the roller 710 to rotate, the roller 710 drives the fixed frame 310 to slide to the first slide rail 720 along the second slide rail 740, and the transverse mold 320 moves to the lower part of the stirring tank 210; the follow-up cylinder 852 starts and drives the rotating rod 840 to rotate, the rotating rod 840 drives the second positioning block 820 to abut against the sliding seat 750, the first positioning block 810 abuts against the side wall of the sliding seat 750 and corrects the position of the fixed frame 310, the follow-up cylinder 852 continues to drive the second positioning block 820 to rotate, so that the roller 710 is attached to the side wall of the first sliding rail 720, then the speed reduction motor 531 is started, the speed reduction motor 531 drives the transmission shaft 536 to rotate, the transmission shaft 536 drives the worm 535 to rotate, the worm 535 drives the worm gear 534 to rotate, the worm gear 534 drives the support rod 533 to rotate along the sliding Kong Huayi, and the support rod 533 drives the connecting frame 520 to abut against one end of the transverse mold 320, which is far away from the fixed frame 310.
After the raw materials are blended, the overturning cylinder 233 is started, a piston rod of the overturning cylinder 233 drives the transmission rod 234 to rotate, the transmission rod 234 drives the closing plate 231 to rotate, the closing plate 231 opens the discharge hole, and the raw materials fall into a plurality of molding cavities, but the raw materials in the molding cavities are not uniform; the jacking cylinder 432 is started, the jacking cylinder 432 drives the turnover frame 410 to rotate, raw materials are gathered at one end of the refining frame 420 and the forming cavity and form a horizontal liquid level, then the jacking cylinder 432 is driven reversely, the jacking cylinder 432 drives the turnover frame 410 to rotate reversely, the turnover frame 410 drives the transverse mold 320 to rotate, the horizontal liquid level is uniformly divided into the forming cavity, the raw materials in the forming cavities are enabled to be approximately in the same state, then the first positioning block 810 and the second positioning block 820 are separated from the sliding seat 750, the roller 710 drives the fixed frame 310 to move onto the second sliding rail 740 to wait for foaming forming, then another group of molds 300 are operated below the stirring tank 210, and the next round of wall plate processing is continued.
After the wallboard in the mould 300 is formed, the hydraulic oil cylinder is started, the piston rod of the hydraulic oil cylinder drives the transverse mould 320 at the end part to slide, the transverse mould 320 drives the connecting plate 620 to slide, the connecting plate 620 and the pin shaft 630 of the adjacent transverse mould 320 are relatively displaced until the pin shaft 630 on the adjacent transverse mould 320 is abutted against the side wall of one end of the waist-shaped groove, the adjacent transverse mould 320 slides and is separated from the other adjacent transverse mould 320, and after all the transverse moulds 320 are uniformly separated, the side mould 330 far away from the first fixing ring 370 is taken down, and the wallboard is taken out.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The light wallboard processing and forming device is characterized by comprising a rack (100), a blending mechanism (200), a mold (300) and a refining mechanism (400), wherein the blending mechanism (200) is arranged on the rack (100) and used for mixing and stirring raw materials; the refining mechanism (400) comprises a turning frame (410), a refining frame (420) and a jacking assembly (430), one end of the turning frame (410) rotates on the rack (100), the mold (300) is arranged on the turning frame (410), and the mold (300) is positioned below the discharge end of the blending mechanism (200); the mould (300) is provided with a plurality of forming cavities; jacking subassembly (430) set up in on frame (100), jacking subassembly (430) are connected and drive with the one end of roll-over stand (410) rotates, even work or material rest (420) set up mould (300) keep away from the one end of jacking subassembly (430), work or material rest (430) drive when mould (300) rotate to the high point, the raw materials gathering just forms horizontal liquid level in even work or material rest (420).
2. A light weight wallboard processing and forming device according to claim 1, characterized in that a lifting mechanism (500) is arranged on the roll-over stand (410), the lifting mechanism (500) comprises a supporting frame (510), a connecting frame (520) and a lifting component (530), the supporting frame (510) is arranged on the roll-over stand (410); the connecting frame (520) is arranged on the supporting frame (510), the material homogenizing frame (420) is arranged on the connecting frame (520), the lifting assembly (530) is arranged on the supporting frame (510), and the lifting assembly (530) is connected with the connecting frame (520) and drives the connecting frame (520) to be far away from the die (300).
3. A light weight wallboard processing and forming device according to claim 2, characterized in that the lifting assembly (530) comprises a speed reduction motor (531), a connecting seat (532), a support rod (533), a worm wheel (534) and a worm (535), the connecting seat (532) is arranged on the support frame (510), the support rod (533) is arranged on the connecting frame (520) and is connected to the connecting seat (532) in a sliding manner; the worm wheel (534) is rotatably arranged on the connecting seat (532) and is in threaded connection with the supporting rod (533), the speed reduction motor (531) is arranged on the supporting frame (510), the worm (535) is connected with an output shaft of the speed reduction motor (531), and the worm wheel (534) is meshed with the worm (535).
4. The light weight wallboard processing and forming device of any one of claims 1-3, wherein the mold (300) comprises a fixed frame (310), a transverse mold (320), a bottom mold (340) and a side mold (330), the fixed frame (310) is arranged on the roll-over stand (410), the fixed frame (310) is provided with a plurality of the transverse molds (320), two adjacent transverse molds (320) are arranged between the bottom mold (340), the bottom mold (340) is abutted against the fixed frame (310), two ends of the bottom mold (340) are arranged on the side mold (330), and two sides of the side mold (330) are respectively abutted against the transverse molds (320).
5. The light weight wallboard processing and forming device of claim 4, wherein the transverse mold (320) is connected to the fixing frame (310) in a sliding manner, a mold separating mechanism (600) is arranged on the fixing frame (310), the mold separating mechanism (600) comprises a fixing lug (610), a connecting plate (620), a pin shaft (630) and a power assembly (640), and the fixing lugs (610) are arranged on the transverse mold (320); the pin shafts (630) penetrate through the fixing lugs (610), a plurality of connecting plates (620) are arranged, one end of each connecting plate (620) is rotatably arranged on one fixing lug (610) through the pin shaft (630), and the other end of each connecting plate (620) is provided with a waist-shaped hole (621) which is connected with the pin shaft (630) on the adjacent fixing lug (610) in a sliding mode; the power assembly (640) is disposed on the fixed frame (310) and connected with one of the transverse dies (320).
6. The light weight wallboard processing and forming device of claim 4, wherein a sliding mechanism (700) is arranged on the machine frame (100), the sliding mechanism (700) comprises a roller (710), a first sliding rail (720) and a driving assembly (730), two first sliding rails (720) are arranged on the roll-over stand (410), two rollers (710) are arranged on each first sliding rail (720) in a rolling manner, and four rollers (710) are arranged on the fixed frame (310) in a rotating manner.
7. The light wallboard processing and forming device of claim 6, wherein a positioning mechanism (800) is arranged on the turning frame (410), the positioning mechanism (800) comprises a first positioning block (810), the first positioning block (810) is arranged at the front end of the fixed frame (310) in the advancing direction, and the first positioning block (810) is used for fixing the mold (300) below the blending mechanism (200).
8. The light wallboard processing and forming device of claim 7, wherein the positioning mechanism (800) further comprises a second positioning block (820), a fixing seat (830), a rotating rod (840) and a rotating assembly (850), two fixing seats (830) are arranged on the roll-over stand (410), the rotating rod (840) is rotatably connected to each fixing seat (830), the second positioning block (820) is hinged to one end of the rotating rod (840), and the second positioning block (820) can abut against the fixed frame (310) and is used for reducing the lateral sliding of the fixed frame (310); all be provided with on second locating piece (820) first locating piece (810), drive assembly (730) set up on roll-over stand (410), drive assembly (730) with dwang (840) are kept away from the one end of second locating piece (820) is connected, drive assembly (730) drive dwang (840) rotate.
CN202211413440.0A 2022-11-11 2022-11-11 Light wallboard processing and forming device Active CN115709509B (en)

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Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090285660A1 (en) * 2008-05-14 2009-11-19 Poyatos Aguilera Julio Tipping device intended for a mobile bucket for feeding a vibro-compressor press
CN109760193A (en) * 2018-12-28 2019-05-17 佛山市欧铂利复合材料有限公司 Quartzite slate automatic assembly line
CN110014499A (en) * 2019-04-04 2019-07-16 廊坊海斯建材机械有限公司 Mold is tumbled shake table and method for oscillating of tumbling
CN111086089A (en) * 2019-12-31 2020-05-01 安徽省巢湖市冠来模具有限责任公司 Die tipping vibration table and tipping vibration method
CN112008850A (en) * 2020-09-14 2020-12-01 广东前景建筑科技有限公司 Light wall material production line
WO2021068283A1 (en) * 2019-04-29 2021-04-15 西安银马实业发展有限公司 Brick forming machine, application thereof and brick forming method
CN113305991A (en) * 2021-06-28 2021-08-27 滁州学院 Automatic forming machine for manufacturing cement prefabricated parts
CN215618773U (en) * 2021-07-20 2022-01-25 福建省信捷机械有限公司 Positioning pulp shaking machine
CN114734525A (en) * 2022-05-10 2022-07-12 山东交通学院 Light wallboard mold transport vehicle and wallboard conveying method
CN217346008U (en) * 2022-02-18 2022-09-02 浙江广川工程咨询有限公司 Reinforced concrete precast slab casting platform

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090285660A1 (en) * 2008-05-14 2009-11-19 Poyatos Aguilera Julio Tipping device intended for a mobile bucket for feeding a vibro-compressor press
CN109760193A (en) * 2018-12-28 2019-05-17 佛山市欧铂利复合材料有限公司 Quartzite slate automatic assembly line
CN110014499A (en) * 2019-04-04 2019-07-16 廊坊海斯建材机械有限公司 Mold is tumbled shake table and method for oscillating of tumbling
WO2021068283A1 (en) * 2019-04-29 2021-04-15 西安银马实业发展有限公司 Brick forming machine, application thereof and brick forming method
CN111086089A (en) * 2019-12-31 2020-05-01 安徽省巢湖市冠来模具有限责任公司 Die tipping vibration table and tipping vibration method
CN112008850A (en) * 2020-09-14 2020-12-01 广东前景建筑科技有限公司 Light wall material production line
CN113305991A (en) * 2021-06-28 2021-08-27 滁州学院 Automatic forming machine for manufacturing cement prefabricated parts
CN215618773U (en) * 2021-07-20 2022-01-25 福建省信捷机械有限公司 Positioning pulp shaking machine
CN217346008U (en) * 2022-02-18 2022-09-02 浙江广川工程咨询有限公司 Reinforced concrete precast slab casting platform
CN114734525A (en) * 2022-05-10 2022-07-12 山东交通学院 Light wallboard mold transport vehicle and wallboard conveying method

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